CN108332579B - A kind of shell-and-tube heat exchanger - Google Patents

Abstract

The present invention provides a kind of vehicle repair major flow tube shell type heat exchangers, including shell, end socket is respectively set in the shell both ends, tube sheet is arranged in the link position of the end socket and shell, the tube sheet at heat exchanger tube connection both ends, vapour phase in stream-liquid two-phase flow can be condensed into liquid phase in heat transfer process, stream-liquid two-phase flow flows in tube side, constant-current stabilizer is set in the heat exchanger tube, the constant-current stabilizer includes core and shell, the core setting is in the shell, the shell is connected and fixed with heat transfer tube wall, the core includes from core-center to the more radial bars radially extended, the fin that the more directions from radial bars to fluid flow pair extend is set in the radial bars, the fin has tip, the tip extends towards the direction of fluid flow pair.The present invention provides a kind of heat exchanger of the constant-current stabilizer of Novel structure, there are when Gas- liquid two-phase flow in pipeline, augmentation of heat transfer, while weakening the vibration of pipeline, reduce noise level.

Description

A kind of shell-and-tube heat exchanger

Technical field

The present invention relates to a kind of shell-and-tube heat exchangers, exchange heat more particularly, to a kind of two-phase flow containing condensable steam Device.

Background technique

Stream-liquid two-phase flow heat exchange is universally present in various heat-exchanger rigs, and stream-liquid two-phase flow is in heat transfer process because of vapour The presence of phase, it is low to will lead to heat exchange efficiency, deteriorates heat exchange, process fluid flow is unstable, and will lead to the hair of water hammer It is raw.When the phase of two-phase working substance is without uniformly mixing and discontinuous flowing, large-sized liquid group can occupy air mass at high speed Space causes two-phase flow unstable, so that tempestuously impact device and pipeline, generates sharp pounding and noise, seriously prestige Coerce equipment operational safety.

The present inventor also devises some constant-current stabilizers, such as multitube constant-current stabilizer in applying in front, referring to Fig. 8 institute Show.But such device is found in operation, because being to be closely linked between pipe, is formed between three root canals Space A it is relatively small because the convex arc that space A is three root canals is formed, most of area stenosis of space A can be made It is difficult to enter and passes through at fluid, cause fluid short, to affect the heat exchange of fluid, good current stabilization can not be played the role of. Simultaneously as more root canal subgroups of above structure are combined, manufacture is difficult.

Therefore in view of the above-mentioned problems, the present invention provides a kind of heat exchangers of the constant-current stabilizer of Novel structure, to solve Above-mentioned problem.

Summary of the invention

The object of the present invention is to provide a kind of heat exchangers of the constant-current stabilizer of Novel structure, and there are vehicle repair majors in pipeline When flowing, weaken the vibration in stream-liquid two-phase flow heat exchanger tube, reduces noise level, while augmentation of heat transfer.

To achieve the goals above, technical scheme is as follows:

End socket, the end socket is respectively set in a kind of vehicle repair major flow tube shell type heat exchanger, including shell, the shell both ends Tube sheet is set with the link position of shell, heat exchanger tube connects the tube sheet at both ends, and the vapour phase in stream-liquid two-phase flow is in heat transfer process It can be condensed into liquid phase, stream-liquid two-phase flow flows in tube side, and constant-current stabilizer, the constant-current stabilizer packet are arranged in the heat exchanger tube Include core and shell, in the shell, the shell is connected and fixed with heat transfer tube wall for the core setting, the core include from The more sides from radial bars to fluid flow pair are arranged in the radial bars to the more radial bars radially extended in core-center To the fin of extension, the fin has tip, and the tip extends towards the direction of fluid flow pair.

Preferably, the core includes the stem that the heart in the core is arranged, described radial bars one end is fixed in stem.

Preferably, groove is arranged in the heat transfer tube wall, the shell of the constant-current stabilizer is arranged in groove, described outer The inner wall of shell and the aligning inner of heat exchanger tube.

Preferably, heat exchanger tube is welded for multi-segment structure, constant-current stabilizer is arranged in the junction of multi-segment structure.

Preferably, the fin is triangular fin.

Preferably, a bottom edge of triangle is located in radial bars, with the vertex at corresponding angle and this while in 75-135 ° of angle of line and the radial bars formation of point.

Preferably, angle is 90 °.

Preferably, the triangular fin is isosceles triangle fin, the bottom edge of the isosceles triangle is located at diameter To on bar.

Preferably, the size of the apex angle of isosceles triangle is A, the length on the bottom edge of isosceles triangle is Y, adjacent isosceles The distance between triangle is J, then meets following require:

Y/J= d-a*sin(A)³-b*sin(A)²-c* sin (A)；Wherein sin is trigonometric function, and a, b, c, d are ginsengs Number；

0.353<a<0.358,

0.485<b<0.486,

0.082 < c < 0.083,

0.403 < d < 0.404,4 < A < 33 °,

0.1765<Y/J <0.4118。

Preferably, a=0.3559, b=0.4859, c=0.08294, d=0.4033.

Preferably, radial bars are 5-10 root, the angle between the radial bars is all equal.

Preferably, radial bars are 8.

Preferably, the length on the bottom edge of isosceles triangle is 0.02-0.03 times of heat exchange bore.

Compared with prior art, of the invention to have the advantage that

1) the present invention provides a kind of constant-current stabilizers of Novel structure, and two-phase fluid is separated into liquid phase by constant-current stabilizer And gas phase, liquid phase is divided into small liquid group, gas phase is divided into minute bubbles, inhibits the reflux of liquid phase, promotes gas phase smooth outflow, Play the role of regime flow, has the effect of vibration and noise reducing.Relative to bar wing formula constant-current stabilizer, current stabilization effect is further increased Fruit, augmentation of heat transfer, and be simple to manufacture.

2) present invention is equivalent to by setting bar wing formula constant-current stabilizer and increases interior heat exchange area in heat exchanger tube, strengthens Heat exchange, improves heat transfer effect.

3) present invention avoids existing because vehicle repair major is divided in the entire cross-section location of heat exchanger tube Only heat transfer tube wall face is split in technology, expands liquid-vaqor interface and vapour phase to realize on entirely heat exchange tube section The contact area of boundary layer and cooling wall simultaneously enhances disturbance, reduces noise and vibration, enhances heat transfer.

4) present invention is by setting up the distance between adjacent constant-current stabilizer, the length of constant-current stabilizer in tube height side The rule variation of the parameters sizes such as degree, fin size reduces noise to further reach steady flow result, improves heat transfer effect.

5) present invention is changed by the way that the rule of the parameters sizes such as phase fin size, spacing is arranged in radial directions, thus Further reach steady flow result, reduce noise, improves heat transfer effect.

6) present invention has been carried out widely by heat exchange rule caused by the variation to bar wing formula constant-current stabilizer parameters Research, when meeting flow resistance, realizes the best relation formula of the effect of vibration and noise reducing.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of two-phase flow tube shell type heat exchanger of the invention；

Fig. 2 is the heat transfer tube structure diagram of two-phase flow tube shell type heat exchanger of the invention；

Fig. 3 constant-current stabilizer structural schematic diagram of the present invention；

Fig. 4 is constant-current stabilizer of the present invention arrangement schematic diagram in heat exchanger tube；

Fig. 5 is another schematic diagram that constant-current stabilizer of the present invention is arranged in heat exchanger tube.

Fig. 6 is that constant-current stabilizer of the present invention arranges cross-sectional view in heat exchanger tube.

Fig. 7 is the scale diagrams of constant-current stabilizer of the present invention.

Fig. 8 is the structural schematic diagram of the two-phase flow tube shell type heat exchanger in background technique.

Appended drawing reference is as follows: front head 1, cover flange 2, front tube sheet 3, shell 4, constant-current stabilizer 5, heat exchanger tube 6, back tube sheet 7, cover flange 8, rear head 9, support 10, support 11, tube-side inlet pipe 12, tube side outlet 13, shell side inlet pipe 14, shell side Outlet 15, stem 51, radial bars 52, fin 53, shell 54.

Specific embodiment

Specific embodiments of the present invention will be described in detail with reference to the accompanying drawing.

Herein, if without specified otherwise, it is related to formula, "/" indicates that division, "×", " * " indicate multiplication.

It should be noted that if the two phase flow that the present invention mentions is stream-liquid two-phase flow, vapour herein without specified otherwise Liquid phase can be mutually condensed into heat transfer process.

A kind of shell-and-tube heat exchanger as shown in Figure 1, the shell-and-tube heat exchanger include shell 4, heat exchanger tube 6, tube side Inlet tube 12, tube side outlet 13, shell side inlet adapter tube 14 and shell-side outlet adapter tube 15；6 groups of multiple heat exchanger tubes disposed in parallel At heat-exchanging tube bundle be connected to front tube sheet 3, on back tube sheet 7；The front end of the front tube sheet 3 is connect with front head 1, back tube sheet 7 Rear end connects rear head 9；The tube-side inlet pipe 12 is arranged on rear head 9；The tube side outlet 13 is arranged preceding On end socket 1；The shell side inlet adapter tube 14 and shell-side outlet adapter tube 15 is arranged on shell 4；The fluid of two phase flow is from pipe Journey inlet tube 12 enters, and exchanges heat by heat exchanger tube, goes out from tube side outlet 13.

As in Figure 3-5, bar wing formula constant-current stabilizer 5 is set in heat exchanger tube 6.The structure of the bar wing formula constant-current stabilizer 5 See Fig. 3-4.As shown in figure 3, the constant-current stabilizer 5 includes core and shell 54, the core is arranged in shell 54, described outer Shell 54 is connected and fixed with 6 inner wall of heat exchanger tube, the core include from core-center to the more radial bars 52 radially extended, it is described The fin 53 that the more directions from radial bars 52 to fluid flow pair extend is set in radial bars 52, and the fin 53 has point Portion, the tip extend towards the direction of fluid flow pair.

Bar wing formula constant-current stabilizer is arranged in the present invention in heat exchanger tube, mainly passes through the tip of bar wing formula constant-current stabilizer, will Liquid and gas in two-phase fluid are separated, and liquid phase is divided into small liquid group, and gas phase is divided into minute bubbles, inhibits liquid phase Reflux, promote gas phase smooth outflow, play the role of regime flow, have the effect of vibration and noise reducing.Apply relative to front Constant-current stabilizer, further increase steady flow result, augmentation of heat transfer, and be simple to manufacture.

The present invention is equivalent to by setting bar wing formula constant-current stabilizer and increases interior heat exchange area in heat exchanger tube, enhanced Heat exchange, improves heat transfer effect.

The present invention is because all cross-section locations by gas-liquid two-phase in all heat exchanger tubes are divided, thus entire The segmentation of gas-liquid interface and gas phase boundary and the contact area of cooling wall are realized on heat exchange tube section and enhances disturbance, greatly Big reduces noise and vibration, enhances heat transfer.

Preferably, the core includes the stem 51 that the heart in the core is arranged, described 52 one end of radial bars is fixed on core In column 51.

By the way that radial bars are arranged, radial bars 52 can be further fixed.

Further preferably, as shown in fig. 7, heat exchanger tube 6 is welded for multi-segment structure, the junction setting of multi-segment structure is steady Flow device 5.This mode makes being simple to manufacture for the tedge that constant-current stabilizer is arranged, and cost reduces.

Further preferably, as shown in fig. 7, groove is arranged inside the heat exchanger tube 6, the shell 54 of the constant-current stabilizer 5 is set It sets in groove.

Preferably, the aligning inner of the inner wall of shell 54 and heat exchanger tube 6.By alignment, so that heat transfer tube wall face table Reach on face in the same plane, guarantees the smooth of surface.

Preferably, the thickness of shell 54 is less than the depth of groove, heat transfer tube wall face can be made to form groove in this way, To carry out augmentation of heat transfer.

Preferably, as in Figure 3-5, the fin 53 is triangular fin.Because triangular fin itself has three A tip can make full use of tip to carry out current stabilization effect downwards in this way.

The present invention can be further increased by setting radial bars and along the outwardly extending triangular fin of radial bars Heat exchange area improves heat transfer effect, and because setting triangular fin, passes through the three of the similar acicular texture of triangular fin Angular tip can further increase flow-disturbing, so that fluid is sufficiently mixed, can further destroy the increase of bubble and gather Collection, improves heat transfer effect.

Further preferably, radial bars cross section is rectangle, is preferably square.

Further preferably, radial bars cross section is circle.

Preferably, the engineering diameter of radial bars is 42 times of 0.21-0., preferably 0.32 times of the engineering diameter of stem.

Preferably, the radial bars are shaft, from the center of circle along the radial inner wall for extending to condenser pipe.

Preferably, multiple triangular fins are arranged in each radial bars, multiple triangular fins are similar figures. Three interior angles in correspondence with each other of i.e. different triangular fins are identical.

Preferably, the radial bars are round bar, a diameter of 0.7-1.1mm, preferably 0.8mm.

Preferably, fin is extended downwardly from the center line of round bar.The fin is slab construction.The slab construction is prolonged Stretch the center line that stem is passed through in face, and center line of the slab construction extended surface Jing Guo radial bars.

Preferably, shown in 5, multiple fins 53 are arranged in same radial bars, the fin 53 is similar figures (i.e. wing such as 4 Piece is of similar shape), from the stem 51 of heat exchanger tube 6 to radially extending on direction, the size of the fin in same radial bars It is increasing.Be apart from heat exchanger tube central axis apart from stem 51() distance be S1, the size of fin is C1, and C1 is distance The function of S1, i.e. C1=F₄(S1), meet following require:

C1 ' > 0, wherein C1 ' is the first order derivative of C1.

Because heat exchange occurs mainly in pipe wall of heat exchange pipe, by increasing by 53 size of fin of pipe wall of heat exchange pipe, so that The ability enhancing of the cutting liquid and vapor capacity of near-wall, is reinforced the cutting power of near-wall by emphasis, can be directed to The noise reduction damping of carry out in light of the circumstances of property, to further realize noise reduction damping effect, while also can further strengthen biography Heat.

Further preferably, from the stem of heat exchanger tube to radially extending on direction, the size of the fin in same radial bars is got over Constantly increase come bigger amplitude.That is C1 " > 0, wherein C1 " is the secondary inverse of C1 respectively.

Show the variation of above-mentioned increasing degree by numerical simulation and experimental study, noise reduction can be further realized Damping, effect can be turned up close to 8%.

Preferably, multiple fins 53 are arranged in same radial bars 52, from the stem 51 of heat exchanger tube 6 to radially extending direction On, the spacing between the fin 53 constantly reduces.The amplitude that spacing between the fin constantly reduces is continuous Increase.

It is S1 apart from the distance of stem, the spacing of fin is J1, J1=F₅(S1), meet following require:

J1 '<0, J1 ">0, wherein J1 ', J1 " are the first order derivative and secondary inverse of J1 respectively.

Concrete principle is same as above.Because heat exchange occurs mainly in pipe wall of heat exchange pipe, by the wing for increasing pipe wall of heat exchange pipe The distribution of piece 53, so that the ability enhancing of the cutting liquid and vapor capacity of near-wall, by reinforcing the noise reduction damping of near-wall, To further realize noise reduction damping effect, while also can further augmentation of heat transfer.

Preferably, a bottom edge of triangle is located in radial bars 52, when with the vertex at corresponding angle with this The angle that the line and radial bars at midpoint are formed is 75-135 °.Mainly by the setting of above-mentioned angle, fin is enabled to Tip carries out the cutting of vehicle repair major to the full extent, to further increase effect of the invention.

Preferably, the angle that the line and radial bars at the midpoint when vertex at corresponding angle is with this are formed is 90 °

Preferably, as shown in figure 5, the triangular fin is isosceles triangle fin, the isosceles triangle Bottom edge is located in radial bars.

It is learnt by analyzing and testing, the spacing between fin 43 cannot be excessive, leads to damping noise reduction if excessive Effect is bad, while can not be too small, causes resistance excessive if too small, and similarly, the height of fin can not excessive or mistake Small, the effect for also resulting in damping noise reduction is bad or resistance is excessive, therefore the present invention is through a large number of experiments, is preferentially meeting Normal flow resistance (total pressure-bearing be 2.5Mpa hereinafter, the on-way resistance of single riser be less than or equal to 5Pa/M) feelings Under condition, so that being optimal of damping noise reduction, has arranged the optimal relationship of parameters.

The size of the apex angle of isosceles triangle is A, and the length on the bottom edge of isosceles triangle is Y, adjacent isosceles triangle it Between distance be J, then meet following require:

Y/J= d-a*sin(A)³-b*sin(A)²-c* sin (A)；Wherein sin is trigonometric function, and a, b, c, d are ginsengs Number；

0.353<a<0.358,

0.485<b<0.486,

0.082 < c < 0.083,

0.403 < d < 0.404,4 < A < 33 °,

0.1765<Y/J <0.4118。

Wherein the distance between adjacent isosceles triangle J is adjacent the distance between the midpoint of triangle base.

Preferably, a=0.3559, b=0.4859, c=0.08294, d=0.4033.

Preferably, 5 < A < 30 °.

Preferably, radial bars are 5-10 root, the angle between the radial bars is all equal.

Preferably, radial bars are 8.

Preferably, the length on the bottom edge of isosceles triangle is 0.02-0.03 times for rising bore.

Preferably, along the flow direction of heat exchange tube fluid, the multiple constant-current stabilizers of setting in heat exchanger tube, from heat exchanger tube Entrance to the outlet of heat exchanger tube, the distance between adjacent constant-current stabilizer is increasingly longer.Distance apart from heat exchange tube inlet is X, The distance between adjacent constant-current stabilizer is S, S=F₁(X), S ' is the first order derivative of S, meets following require:

S’>0;

Main cause is because containing steam in fluid, and along the flow direction of fluid, steam is because in heat exchanger tube Fluid heat release and condense, to be condensed into liquid phase, this leads to the flow direction along heat exchange tube fluid, and steam can be increasingly Few, the vapour phase in stream-liquid two-phase flow is fewer and fewer, and the exchange capability of heat in heat exchanger tube can be continuous for liquid phase with vapor-phase conversion Increase, vibration and its noise also can with vapor-phase conversion be liquid phase and constantly reduce.It therefore, can be by the spacing of constant-current stabilizer Become larger, on the one hand can reduce flow resistance in this way, on the other hand also be able to maintain low noise and low vibration, and can also be because of steady It is fewer and fewer as the distribution of inner fin to flow device, keeps the heat exchange on entire heat exchanger tube uniform, but also material can be saved.

It is found through experiments that, by above-mentioned setting, can both reduce vibration and noise to the full extent, while can protect Card reduces the flow resistance of fluid.

Further preferably, from the entrance of heat exchanger tube to the outlet of heat exchanger tube, the distance between adjacent constant-current stabilizer is increasingly Long amplitude is continuously increased.That is S " is the second derivative of S, meets following require:

S”>0;

It is found through experiments that, by being reduced simultaneously so set, 8% or so vibration and noise can be further decreased The resistance of flowing 6% or so.

Preferably, the length of each constant-current stabilizer remains unchanged.

Preferably, other than the distance between adjacent constant-current stabilizer, constant-current stabilizer others parameter (such as length, Caliber etc.) it remains unchanged.

Preferably, along the flow direction of fluid in heat exchanger tube 6, the multiple constant-current stabilizers 5 of setting in heat exchanger tube 6, from changing For the entrance of heat pipe 6 to the outlet of heat exchanger tube 6, the size of the fin of constant-current stabilizer 5 is increasing.That is the fin size of constant-current stabilizer For C, C=F₂(X), C ' is the first order derivative of C, meets following require:

C’>0;

Further preferably, from the entrance of heat exchanger tube to the outlet of heat exchanger tube, the fin size of constant-current stabilizer is increasing Amplitude is continuously increased.That is C " is the second derivative of C, meets following require:

C”>0;

The variation of the distance between for example adjacent constant-current stabilizer of specific reason is identical.

Preferably, the distance between adjacent constant-current stabilizer remains unchanged.

Preferably, the length in addition to constant-current stabilizer is outside one's consideration, constant-current stabilizer others parameter (such as adjacent spacing, caliber Deng) remain unchanged.

Preferably, along the flow direction of fluid in heat exchanger tube 6, the multiple constant-current stabilizers of setting in heat exchanger tube 6, from heat exchange For the entrance of pipe 6 to the outlet of heat exchanger tube 6, the fin distribution density in different constant-current stabilizers 5 is increasing.That is the wing of constant-current stabilizer Piece distribution density is D, D=F₃(X), D ' is the first order derivative of D, meets following require:

D’>0;

Preferably, the fin distribution density of constant-current stabilizer is increasing from the entrance of heat exchanger tube to the outlet of heat exchanger tube Amplitude be continuously increased.I.e.

D " is the second derivative of D, meets following require:

D”>0。

The variation of the distance between for example adjacent constant-current stabilizer of specific reason is identical.

Preferably, the length of constant-current stabilizer and the distance of adjacent constant-current stabilizer remain unchanged.

Preferably, other than the fin distribution density of constant-current stabilizer, constant-current stabilizer others parameter (such as length, phase The distance between adjacent constant-current stabilizer etc.) it remains unchanged.

The distance between adjacent constant-current stabilizer is S, and the internal diameter of heat exchange tube is W, and wherein the interval S of constant-current stabilizer is adjacent Adjacent the distance between the radial bars central axis of constant-current stabilizer.

34mm<W<58mm；

50mm<S<80mm。

Preferably, heat exchanger tube length L is between 3000-5500mm.Further preferably, between 3500-4500mm.

Further preferably, 40mm < W < 50mm；

55mm<S<60mm。

Preferably, S is greater than 1.4 times of the height of fin.

For parameters such as other parameters, such as tube wall, shell wall thickness according to normal standard setting.

Preferably, fluid is water in shell side.

Preferably, tube side inner fluid speed 3-5m/S.

Preferably, the length L of heat exchanger tube and the diameter of the housing ratio of heat exchanger are 6-10.

Although the present invention has been disclosed in the preferred embodiments as above, present invention is not limited to this.Any art technology Personnel can make various changes or modifications, therefore protection scope of the present invention is answered without departing from the spirit and scope of the present invention When being defined by the scope defined by the claims..

Claims (8)

1. a kind of vehicle repair major flow tube shell type heat exchanger, including shell, the shell both ends are respectively set end socket, the end socket and Tube sheet is arranged in the link position of shell, and heat exchanger tube connects the tube sheet at both ends, the energy in heat transfer process of the vapour phase in stream-liquid two-phase flow Enough it is condensed into liquid phase, which is characterized in that stream-liquid two-phase flow flows in tube side, and constant-current stabilizer is arranged in the heat exchanger tube, described Constant-current stabilizer includes core and shell, and in the shell, the shell is connected and fixed with heat transfer tube wall, described for the core setting Core includes that more are arranged in the radial bars from radial bars to fluid stream from core-center to the more radial bars radially extended The fin that opposite direction extends is moved, the fin has tip, and the tip extends towards the direction of fluid flow pair；Institute Stating fin is triangular fin, and a bottom edge of triangle is located in radial bars, the vertex and the bottom at angle corresponding with the bottom edge 75-135 ° of angle of line and the radial bars formation at the midpoint on side；

The triangular fin is isosceles triangle fin, and the bottom edge of the isosceles triangle is located in radial bars, isosceles three The size of angular apex angle is A, and the length on the bottom edge of isosceles triangle is Y, and the distance between adjacent isosceles triangle is J, then Meet following require:

Y/J= d-a*sin(A)³-b*sin(A)²-c* sin (A)；Wherein sin is trigonometric function, and a, b, c, d are parameters；

0.353<a<0.358,

0.485<b<0.486,

0.082 < c < 0.083,

0.403 < d < 0.404,4 < A < 33 °,

0.1765<Y/J <0.4118。

2. shell-and-tube heat exchanger as described in claim 1, which is characterized in that the core includes the core that the heart in the core is arranged Column, described radial bars one end are fixed in stem.

3. shell-and-tube heat exchanger as described in claim 1, which is characterized in that groove is arranged in the heat transfer tube wall, described steady The shell for flowing device is arranged in groove, the inner wall of the shell and the aligning inner of heat exchanger tube.

4. shell-and-tube heat exchanger as described in claim 1, which is characterized in that heat exchanger tube is welded for multi-segment structure, multistage Constant-current stabilizer is arranged in the junction of structure.

5. shell-and-tube heat exchanger as described in claim 1, which is characterized in that a=0.3559, b=0.4859, c=0.08294, d =0.4033。

6. shell-and-tube heat exchanger as claimed in claim 5, which is characterized in that radial bars are 5-10 root, between the radial bars Angle it is all equal.

7. shell-and-tube heat exchanger as claimed in claim 6, which is characterized in that radial bars are 8.

8. shell-and-tube heat exchanger as described in claim 1, which is characterized in that the length on the bottom edge of isosceles triangle is heat exchanger tube 0.02-0.03 times of internal diameter.